From global to regional and back again: common climate stressors of marine ecosystems relevant for adaptation across five ocean warming hotspots
Ocean warming ‘hotspots’ are regions characterized by above-average temperature increases over recent years, for which there are significant consequences for both living marine resources and the societies that depend on them. As such, they represent early warning systems for understanding the impact...
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ftrhodesunivcory:vital:35623 2024-06-09T07:48:49+00:00 From global to regional and back again: common climate stressors of marine ecosystems relevant for adaptation across five ocean warming hotspots Popova, Ekaterina Yool, Andrew Byfield, Valborg Cochrane, Kevern Coward, Andrew C Salim, Shyam S Gasalla, Maria A Henson, S.A Hobday, Alistair J Pecl, Gretta T Sauer, Warwick H H Roberts, Michael J 2016 16 pages pdf http://hdl.handle.net/10962/124514 https://corycommons.ru.ac.za/vital/access/manager/Repository/vital:35623 https://doi.10.1111/gcb.13247 English eng Global Change Biology http://hdl.handle.net/10962/124514 vital:35623 https://corycommons.ru.ac.za/vital/access/manager/Repository/vital:35623 https://doi.10.1111/gcb.13247 Global Change Biology Use of this resource is governed by the terms and conditions of the Wiley Library Online Terms of Use Statement (https://onlinelibrary.wiley.com/terms-and-conditions) text article 2016 ftrhodesunivcory 2024-05-16T14:25:24Z Ocean warming ‘hotspots’ are regions characterized by above-average temperature increases over recent years, for which there are significant consequences for both living marine resources and the societies that depend on them. As such, they represent early warning systems for understanding the impacts of marine climate change, and test-beds for developing adaptation options for coping with those impacts. Here, we examine five hotspots off the coasts of eastern Australia, South Africa, Madagascar, India and Brazil. These particular hotspots have underpinned a large international partnership that is working towards improving community adaptation by characterizing, assessing and projecting the likely future of coastal-marine food resources through the provision and sharing of knowledge. To inform this effort, we employ a high-resolution global ocean model forced by Representative Concentration Pathway 8.5 and simulated to year 2099. In addition to the sea surface temperature, we analyse projected stratification, nutrient supply, primary production, anthropogenic CO2-driven ocean acidification, deoxygenation and ocean circulation. Our simulation finds that the temperature-defined hotspots studied here will continue to experience warming but, with the exception of eastern Australia, may not remain the fastest warming ocean areas over the next century as the strongest warming is projected to occur in the subpolar and polar areas of the Northern Hemisphere. Additionally, we find that recent rapid change in SST is not necessarily an indicator that these areas are also hotspots of the other climatic stressors examined. However, a consistent facet of the hotspots studied here is that they are all strongly influenced by ocean circulation, which has already shown changes in the recent past and is projected to undergo further strong change into the future. In addition to the fast warming, change in local ocean circulation represents a distinct feature of present and future climate change impacting marine ecosystems in these ... Article in Journal/Newspaper Ocean acidification Rhodes University Cory: Repository |
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Open Polar |
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Rhodes University Cory: Repository |
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ftrhodesunivcory |
| language |
English |
| description |
Ocean warming ‘hotspots’ are regions characterized by above-average temperature increases over recent years, for which there are significant consequences for both living marine resources and the societies that depend on them. As such, they represent early warning systems for understanding the impacts of marine climate change, and test-beds for developing adaptation options for coping with those impacts. Here, we examine five hotspots off the coasts of eastern Australia, South Africa, Madagascar, India and Brazil. These particular hotspots have underpinned a large international partnership that is working towards improving community adaptation by characterizing, assessing and projecting the likely future of coastal-marine food resources through the provision and sharing of knowledge. To inform this effort, we employ a high-resolution global ocean model forced by Representative Concentration Pathway 8.5 and simulated to year 2099. In addition to the sea surface temperature, we analyse projected stratification, nutrient supply, primary production, anthropogenic CO2-driven ocean acidification, deoxygenation and ocean circulation. Our simulation finds that the temperature-defined hotspots studied here will continue to experience warming but, with the exception of eastern Australia, may not remain the fastest warming ocean areas over the next century as the strongest warming is projected to occur in the subpolar and polar areas of the Northern Hemisphere. Additionally, we find that recent rapid change in SST is not necessarily an indicator that these areas are also hotspots of the other climatic stressors examined. However, a consistent facet of the hotspots studied here is that they are all strongly influenced by ocean circulation, which has already shown changes in the recent past and is projected to undergo further strong change into the future. In addition to the fast warming, change in local ocean circulation represents a distinct feature of present and future climate change impacting marine ecosystems in these ... |
| format |
Article in Journal/Newspaper |
| author |
Popova, Ekaterina Yool, Andrew Byfield, Valborg Cochrane, Kevern Coward, Andrew C Salim, Shyam S Gasalla, Maria A Henson, S.A Hobday, Alistair J Pecl, Gretta T Sauer, Warwick H H Roberts, Michael J |
| spellingShingle |
Popova, Ekaterina Yool, Andrew Byfield, Valborg Cochrane, Kevern Coward, Andrew C Salim, Shyam S Gasalla, Maria A Henson, S.A Hobday, Alistair J Pecl, Gretta T Sauer, Warwick H H Roberts, Michael J From global to regional and back again: common climate stressors of marine ecosystems relevant for adaptation across five ocean warming hotspots |
| author_facet |
Popova, Ekaterina Yool, Andrew Byfield, Valborg Cochrane, Kevern Coward, Andrew C Salim, Shyam S Gasalla, Maria A Henson, S.A Hobday, Alistair J Pecl, Gretta T Sauer, Warwick H H Roberts, Michael J |
| author_sort |
Popova, Ekaterina |
| title |
From global to regional and back again: common climate stressors of marine ecosystems relevant for adaptation across five ocean warming hotspots |
| title_short |
From global to regional and back again: common climate stressors of marine ecosystems relevant for adaptation across five ocean warming hotspots |
| title_full |
From global to regional and back again: common climate stressors of marine ecosystems relevant for adaptation across five ocean warming hotspots |
| title_fullStr |
From global to regional and back again: common climate stressors of marine ecosystems relevant for adaptation across five ocean warming hotspots |
| title_full_unstemmed |
From global to regional and back again: common climate stressors of marine ecosystems relevant for adaptation across five ocean warming hotspots |
| title_sort |
from global to regional and back again: common climate stressors of marine ecosystems relevant for adaptation across five ocean warming hotspots |
| publishDate |
2016 |
| url |
http://hdl.handle.net/10962/124514 https://corycommons.ru.ac.za/vital/access/manager/Repository/vital:35623 https://doi.10.1111/gcb.13247 |
| genre |
Ocean acidification |
| genre_facet |
Ocean acidification |
| op_relation |
Global Change Biology http://hdl.handle.net/10962/124514 vital:35623 https://corycommons.ru.ac.za/vital/access/manager/Repository/vital:35623 https://doi.10.1111/gcb.13247 |
| op_rights |
Global Change Biology Use of this resource is governed by the terms and conditions of the Wiley Library Online Terms of Use Statement (https://onlinelibrary.wiley.com/terms-and-conditions) |
| _version_ |
1801380716324323328 |